Wolf Group

Our team works on the mathematical and conceptual foundations of quantum theory. From the rigorous perspective of mathematical physics we are interested in the unimagined possibilities the world of quantum theory has in store for us. The main research directions of our group are summarized in the following.

Quantum Channels

Quantum Channels are the quantum counterparts of classical Markov chains and describe quantum evolutions and processes in general. The analysis of the mathematical structure of these objects is the backbone of our research.

Quantum Shannon Theory

Quantum Shannon Theory aims at putting Shannon's mathematical theory of communication on the general grounds of quantum theory. We are particularly interested in determining optimal communication rates and in the analysis of non-additivity effects, i.e., the possibility of increasing communication rates by exploiting entanglement.

Quantum Spin Lattices

Quantum spin lattices are effective models for condensed matter systems. At low temperature they exhibit interesting properties due to quantum correlations, which we try to understand - often based on tensor networks.

Quantum Measurements

We are interested in how measurements in general and information extraction in particular disturb a quantum system. On the other hand, we are investigating efficient ways of information extraction. The latter also concerns scenarios where the effective dimension is considerably smaller than the one used to describe the system at hand and the question is, how and when this fact can be exploited.